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Autori principali: Steckmann, Thomas, Luo, De, Wang, Yu-Xin, Muleady, Sean R., Seif, Alireza, Monroe, Christopher, Gullans, Michael J., Gorshkov, Alexey V., Katz, Or, Schuckert, Alexander
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2506.16509
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author Steckmann, Thomas
Luo, De
Wang, Yu-Xin
Muleady, Sean R.
Seif, Alireza
Monroe, Christopher
Gullans, Michael J.
Gorshkov, Alexey V.
Katz, Or
Schuckert, Alexander
author_facet Steckmann, Thomas
Luo, De
Wang, Yu-Xin
Muleady, Sean R.
Seif, Alireza
Monroe, Christopher
Gullans, Michael J.
Gorshkov, Alexey V.
Katz, Or
Schuckert, Alexander
contents Analog quantum simulators have provided key insights into quantum many-body dynamics. However, in such systems, both coherent and incoherent errors limit their scalability, hindering simulations in regimes that challenge classical simulations. In this work, we introduce an error mitigation technique that addresses and effectively suppresses a key source of error in leading simulator platforms: shot-to-shot fluctuations in the parameters for the Hamiltonian governing the system dynamics. We rigorously prove that amplifying this shot-to-shot noise and extrapolating to the zero-noise limit recovers noiseless results for realistic noise distributions. Experimentally, we demonstrate this technique on a 27-ion trapped-ion quantum simulator, extending the two-qubit exchange oscillation lifetime threefold. Numerically, we predict a significant enhancement in the effective many-body coherence time for Rydberg atom arrays under realistic conditions. Our scheme provides a possible route towards extending the effective coherence time in analog quantum experiments, enabling deeper explorations of quantum many-body dynamics.
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id arxiv_https___arxiv_org_abs_2506_16509
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publishDate 2025
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spellingShingle Error mitigation of shot-to-shot fluctuations in analog quantum simulators
Steckmann, Thomas
Luo, De
Wang, Yu-Xin
Muleady, Sean R.
Seif, Alireza
Monroe, Christopher
Gullans, Michael J.
Gorshkov, Alexey V.
Katz, Or
Schuckert, Alexander
Quantum Physics
Analog quantum simulators have provided key insights into quantum many-body dynamics. However, in such systems, both coherent and incoherent errors limit their scalability, hindering simulations in regimes that challenge classical simulations. In this work, we introduce an error mitigation technique that addresses and effectively suppresses a key source of error in leading simulator platforms: shot-to-shot fluctuations in the parameters for the Hamiltonian governing the system dynamics. We rigorously prove that amplifying this shot-to-shot noise and extrapolating to the zero-noise limit recovers noiseless results for realistic noise distributions. Experimentally, we demonstrate this technique on a 27-ion trapped-ion quantum simulator, extending the two-qubit exchange oscillation lifetime threefold. Numerically, we predict a significant enhancement in the effective many-body coherence time for Rydberg atom arrays under realistic conditions. Our scheme provides a possible route towards extending the effective coherence time in analog quantum experiments, enabling deeper explorations of quantum many-body dynamics.
title Error mitigation of shot-to-shot fluctuations in analog quantum simulators
topic Quantum Physics
url https://arxiv.org/abs/2506.16509